CN111258625B - Software flashing detection method and device, storage medium and electronic equipment - Google Patents

Abstract

The embodiment of the application discloses a method and a device for detecting a software flashing, a storage medium and electronic equipment, wherein the method comprises the following steps: receiving a software version searching request which is sent by a packaging station and aims at a terminal of a final assembly, wherein the software version searching request carries a processor identifier of the terminal, searching a target software version corresponding to the processor identifier in the software version set, and feeding back the target software version to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with an allowed software version by the packaging station. By adopting the embodiment of the application, the accurate software version can be obtained, and the error rate of software version detection is reduced.

Description

Software flashing detection method and device, storage medium and electronic equipment

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method and apparatus for detecting a software brushing machine, a storage medium, and an electronic device.

Background

With the popularization of terminals (such as mobile phones, computers and notebooks), manufacturers use a brushing station to brush the terminals during the production process of the terminals so as to install relevant software (including system software, application software, intermediary software between the system software and the application software) on the terminals. And then the packaging station is used for detecting the software version on the terminal, and when the software version is matched with the allowed software version, the packaging station is used for packaging the terminal, and finally, the terminal is put in storage and delivered.

At present, when the terminal is refreshed by the terminal refreshing station, the software version of the terminal refreshing this time and the identity code (taking the terminal as a mobile phone for example, the identity code may be an international mobile equipment identity code) of the terminal are uploaded to the server correspondingly. By binding the software version with the identity code of the terminal, the packaging station can acquire the corresponding software version from the server through the identity code of the terminal so as to detect whether the software version is matched with the permitted software version. However, the mode of binding the software version and the identity code of the terminal is adopted, in the production process of the terminal, after the final assembly of the terminal is completed, the final assembly station is in a shutdown state, when the terminal is refreshed due to production requirements (such as the need of updating the software version before marketing), the terminal is in the shutdown state when the terminal is refreshed, the terminal cannot acquire the identity code of the terminal, and the terminal cannot upload the software version of the current refresh to a server, so that the packaging station cannot acquire the software version of the terminal accurately, and the software version detection error rate is high.

Disclosure of Invention

The embodiment of the application provides a software flashing detection method, a device, a storage medium and electronic equipment, which can acquire an accurate software version and reduce the error rate of software version detection. The technical scheme is as follows:

In a first aspect, an embodiment of the present application provides a method for detecting a software flashing, where the method includes:

receiving a software version searching request which is sent by a packaging station and aims at a terminal which is assembled, wherein the software version searching request carries a processor identifier of the terminal;

searching a target software version corresponding to the processor identifier in the software version set;

and feeding the target software version back to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

In a second aspect, an embodiment of the present application provides another method for detecting a software brushing machine, where the method includes:

acquiring a processor identifier of a terminal which is assembled, and sending a software version searching request aiming at the terminal to a server, wherein the software version searching request carries the processor identifier of the terminal;

receiving a target software version fed back by the server;

and packaging the terminal when the target software version is matched with the allowed software version.

In a third aspect, an embodiment of the present application provides a software brush machine detection apparatus, where the apparatus includes:

The system comprises a search request receiving module, a storage module and a storage module, wherein the search request receiving module is used for receiving a software version search request which is sent by a packaging station and is aimed at a terminal which is assembled, and the software version search request carries a processor identifier of the terminal;

the target version searching module is used for searching a target software version corresponding to the processor identifier in the software version set;

and the target version feedback module is used for feeding back the target software version to the packaging station, and the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

In a fourth aspect, an embodiment of the present application provides a software brush machine detection apparatus, where the apparatus includes:

the processor identifier sending module is used for obtaining the processor identifier of the terminal which is assembled, and sending a software version searching request aiming at the terminal to the server, wherein the software version searching request carries the processor identifier of the terminal;

the target version receiving module is used for receiving a target software version fed back by the server;

and the software version matching module is used for packaging the terminal when the target software version is matched with the allowed software version.

In a fifth aspect, embodiments of the present application provide a computer storage medium storing a plurality of instructions adapted to be loaded by a processor and to perform the above-described method steps.

In a sixth aspect, embodiments of the present application provide an electronic device, which may include: a processor and a memory; wherein the memory stores a computer program adapted to be loaded by the processor and to perform the above-mentioned method steps.

The technical scheme provided by some embodiments of the present application has the beneficial effects that at least includes:

in one or more embodiments of the present application, a server receives a software version search request for a terminal that has been assembled and sent by a wrapping station, where the software version search request carries a processor identifier of the terminal, searches a set of software versions for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a software flashing detection method provided in an embodiment of the present application;

FIG. 2 is a flowchart of another method for detecting a software flashing according to an embodiment of the present application;

FIG. 3 is a scene diagram of an asymmetric encryption mode related to a software flashing detection method according to an embodiment of the present application;

FIG. 4 is a flowchart of another method for detecting a software flashing according to an embodiment of the present disclosure;

fig. 5 is a schematic view of a scenario of scanning identity tags related to a software flashing detection method according to an embodiment of the present application;

fig. 6 is a schematic view of a software flashing detection system according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a software brushing detecting device according to an embodiment of the present application;

Fig. 8 is a schematic structural diagram of a search request receiving module according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of another software brushing detecting device according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of another software brushing detecting device according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of a processor identifier sending module provided in an embodiment of the present application;

fig. 12 is a schematic structural diagram of another software brushing detecting device according to an embodiment of the present application;

fig. 13 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 14 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present application, it is to be understood that the terms "comprise" and "have," and any variations thereof, are intended to cover non-exclusive inclusions, unless otherwise specifically defined and defined. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context. Furthermore, in the description of the present application, unless otherwise indicated, "a plurality" means two or more. "and/or", describes an association relationship of an association object, and indicates that there may be three relationships, for example, a and/or B, and may indicate: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship.

The present application is described in detail with reference to specific examples.

In one embodiment, as shown in fig. 1, a software brush detection method is specifically proposed, which can be implemented by a computer program and can be run on a software brush detection device based on von neumann system. The computer program may be integrated in the application or may run as a stand-alone tool class application.

Specifically, the software flashing detection method comprises the following steps:

step 101: and receiving a software version searching request which is sent by a packaging station and aims at the terminal which is assembled, wherein the software version searching request carries the processor identifier of the terminal.

In this embodiment of the present application, the packaging station is configured to detect whether the installed software of the terminal before the assembled terminal leaves the factory and packages the factory meets the factory standard, that is, whether the version information of each software is consistent with the version information of the allowed software, and when the assembled terminal meets the factory standard, the packaging station packages the assembled terminal, for example, assembles the accessory of the terminal, packages the terminal into a packaging box, and finally stores and outputs the product.

In the embodiment of the present application, the terminal after assembly generally refers to a terminal after the assembly station completes the assembly test (such as appearance and complete machine function test) on the terminal. In the general assembly test link, the terminal can complete the production test procedures of surface mounting, single board test, complete machine test, terminal identification code (such as IMEI code) writing and the like. After the final assembly station completes the final assembly test (such as appearance and complete machine function test) of the terminal, the terminal is usually in a shutdown state.

The software version search request may be understood as code for requesting the server to perform a search for a software version of the "assembled terminal". The server can search the target version software version of the assembled terminal by executing the codes according to the stored related software version information.

The processor identification is typically indicative of the class, model, specification, etc. of the terminal processor. Typically the processor identification may be an id representing the processor, e.g. 1, 2, 3 etc. numbers representing ids; may be key characters representing the processor, such as a, b, c, etc.; may be a key string representing the processor, such as pth_a, pth_b, pth_c; etc. In the embodiment of the application, the server can be used for searching the target version information of the terminal which is assembled by receiving the processor identification sent by the packaging station.

Specifically, after the processor identifier of the assembled terminal is obtained, the packaging station may send a software version searching request for searching the target version information of the assembled terminal to the server through a communication network between the packaging station and the server. After receiving the software version searching request, the server responds to the software version searching request and executes the next step of searching the target software version corresponding to the processor identifier in the software version set.

Alternatively, the communication network between the wrapping station and the server may be the Internet, but may be any other network including, but not limited to, a local area network (LocalAreaNetwork, LAN), a metropolitan area network (MetropolitanAreaNetwork, MAN), a wide area network (WideAreaNetwork, WAN), a mobile, wired or wireless network, a private network, or any combination of virtual private networks.

In the embodiment of the application, when the packaging station and the server exchange data via a communication network (for example, the packaging station sends a software version searching request to the server, and the server feeds back a target software version to the packaging station), technologies and/or formats including hypertext markup language (HTML) and extensible markup language (ExtensibleMarkupLanguage, XML) may be used to represent data exchanged via the network. All or some of the communication network links may also be encrypted using conventional encryption techniques such as secure socket layer (SecureSocketLayer, SSL), transport layer security (TransportLayerSecurity, TLS), virtual private network (VirtualPrivateNetwork, VPN), internet protocol security (InternetProtocolSecurity, IPsec), and the like. Custom and/or dedicated data communication techniques may also be used in place of or in addition to the data communication techniques described above.

Step 102: and searching the corresponding target software version of the processor identifier in the software version set.

The set of software versions includes at least one processor of the terminal identifying a corresponding software version.

The target software policy may be understood as a latest software version of the assembled terminal stored in the server (i.e. when the terminal leaves the factory, package), and the representation form of the software version may be a form of a software version id.

In a specific implementation scenario, the server may be generally provided with a Manufacturing Execution System (MES), and the server may control each flow in the terminal production assembly process by carrying the MES, and may specifically provide, by using the MES, a flow of terminal manufacturing data management, planning and scheduling management, production and scheduling management, inventory management, quality management, human resource management, work center/equipment management, tool management, purchase management, cost management, project bulletin management, production process control, bottom layer data integration analysis, upper layer data integration decomposition, etc., to improve efficiency in the terminal production assembly process, and reduce production risk. It can be understood that, due to the requirements of production and testing in the whole production and assembly process, in the process of installing and debugging the terminal execution software (including system software, application software, intermediary software between the system software and the application software, etc.), also called a terminal machine brushing process, the machine brushing station for executing the terminal machine brushing task will upload the machine brushing related information of the machine brushing task to the MES system of the server for storage, where the machine brushing related information includes, but is not limited to, the processor identifier of the terminal, the software version, the machine brushing time, the machine brushing station number, etc. After receiving the information about the brushing machine sent by the brushing machine working machine, the MES system of the server can establish the corresponding relation between the processor identifier and the software version and store the corresponding relation in the form of the software version set. It can be understood that when the terminal with the installed software is refreshed again by the refresh station, the refresh related information corresponding to the refresh task is uploaded to the server, and the refresh related information includes the updated software version of the refresh and the processor identifier. After receiving the related information of the flash, the server analyzes the related information of the flash, updates a software version corresponding to the processor identifier in a software version set stored in the server, and particularly updates the software version into the updated software version and stores the updated software version.

Specifically, after receiving a software version searching request for searching target version information of a terminal which is assembled in a final way and is sent by the packaging station through a communication network between the server and the packaging station, responding to the software version searching request, acquiring the processor identifier of the terminal which is assembled in the final way and is carried by the software version searching request, acquiring a stored software version set, and searching a target software version corresponding to the processor identifier in the software version set.

Step 103: and feeding the target software version back to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

The release-allowed software version may be understood as a software version installed on a terminal that allows delivery, and in this embodiment of the present application, the packaging station determines whether the software of the terminal meets delivery standards by detecting whether the software version of the assembled terminal is consistent with the release-allowed version, that is, detecting whether the software version (such as a software version number) of each software of the terminal is consistent with the release-allowed software version, and when the assembled terminal meets the delivery standards, the packaging station packages the assembled terminal, such as assembling accessories of the terminal, packaging the terminal into a package box, and finally warehousing and delivering.

Specifically, the server responds to the software version searching request of the terminal, and searches a target software version corresponding to the processor identifier in the software version set based on the processor identifier carried by the software version searching request. And when the target software version is found, feeding back the target software version to the packaging station through a communication network between the target software version and the packaging station. After the packaging station receives the target software version, software version detection can be performed on the assembled terminal to determine whether the target software version on the assembled terminal is matched with the allowed software version, for example, whether the target software version is consistent with the allowed software version is detected, namely, when the assembled terminal meets the factory standard, the packaging station packages the assembled terminal, for example, fittings of the terminal are assembled, the terminal is packaged into a packaging box, and finally, warehousing and shipment are performed.

In this embodiment of the present application, a server receives a software version search request sent by a wrapping station for a terminal that has been assembled, where the software version search request carries a processor identifier of the terminal, searches a software version set for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection. .

Referring to fig. 2, fig. 2 is a flow chart of another embodiment of a software brush detection method according to the present application. Specific:

step 201: and receiving the identity identification code of the terminal and the processor identification uploaded after the terminal is assembled by the assembly station.

The identification code is a serial number for identifying the identity of the terminal, and takes the terminal as an example of a mobile phone, and the identification code can be an international mobile equipment identification code (InternationalMobileEquipmentIdentity, IMEI), namely a commonly-called mobile phone serial number and a mobile phone serial number, and is used for identifying each independent mobile communication device such as a mobile phone in a mobile phone network, and is equivalent to an identification card of the mobile phone.

The processor identification is typically indicative of the class, model, specification, etc. of the terminal processor. Typically the processor identification may be an id representing the processor, e.g. 1, 2, 3 etc. numbers representing ids; may be key characters representing the processor, such as a, b, c, etc.; may be a key string representing the processor, such as pth_a, pth_b, pth_c; etc. Taking a terminal as an example of a mobile phone, the processor identifier may be an ID (CPUID) of a central controller of the terminal.

Specifically, when the terminal is assembled in the assembly station through the production line, the assembly station performs assembly and corresponding test on the current terminal, and in the assembly test link, the terminal can usually complete the production test procedures such as the surface mounting procedure, the single board test, the complete machine test, the writing of the terminal identification code (such as the IMEI code) and the like. After the final assembly station completes final assembly of the terminal, a corresponding relationship between a terminal identification code (such as an IMEI code) of the final assembled terminal and a processor identification can be established in the server. Specifically, the identification code and the processor identification of the terminal are uploaded to a server through a communication network between the server and the terminal. The server can receive the identification code and the processor identification of the terminal sent by the final assembly station.

After the terminal completes the final assembly test (appearance and overall function test and the like) on the terminal at the final assembly station, the terminal is usually in a shutdown state. When the brushing machine works, the terminal which is assembled is required to be brushed, the processor identification of the terminal can be obtained in the brushing process. In this embodiment of the present application, when at least one terminal is refreshed by using a refresh station, a correspondence between the processor identifier and a software version of the terminal in a refresh process may be established, and a correspondence between the processor identifier and the software version of the terminal in a refresh process may be sent to a server for storage, so that the packaging station may obtain, from the server, a latest target software version of the terminal in a software detection process before packaging the terminal.

Step 202: and correspondingly storing the processor identifier and the identification code into a processor identifier set.

The processor identification set comprises processor identifications corresponding to the identity identification codes of at least one terminal.

In a specific implementation scenario, the server may generally be equipped with an MES system, and after the assembly station performs assembly on the terminal, the assembly station completes a production test procedure such as a surface mounting procedure, a board test, a complete machine test, writing of a terminal identity identifier (such as an IMEI code) on the terminal, and the like, and the assembly station sends assembly related information of the current assembly task to the MES system of the server for storage, where the assembly related information includes, but is not limited to, processor identification of the terminal, identity identifier of the terminal, assembly time, assembly station number and other assembly information. After receiving the assembly related information sent by the assembly station, the MES system of the server extracts the identity code and the processor identifier of the terminal in the assembly related information, establishes the corresponding relation between the processor identifier and the identity code, and stores the corresponding relation in the form of the processor identifier set. After receiving the software version searching request of the packaging station, and when the software version searching request carries the identification code of the terminal, the server can search the processor identifier corresponding to the identification code in the processor identifier set based on the software version searching request so as to find the target software version of the terminal through the processor identifier.

In one possible embodiment, the server may send the set of processor identifications to the packaging station. The packaging station may search the processor identifier corresponding to the identification code in the processor identifier set after scanning the identification code of the terminal of the assembled terminal based on the processor identifier set. And sending a software version lookup request to a server based on the processor identification.

One way may be for the wrapping station to actively send a collection acquisition request to the server for the assembled terminal. And the server receives the set acquisition request and sends the processor identification set to the packaging station, wherein the processor identification set is used for the packaging station to acquire the processor identification corresponding to the identification code of the terminal.

One way may be that the server may actively push the processor identifier set to the packaging station, for example, push the processor identifier set to the packaging station at regular intervals of a specific pushing period (for example, 5 minutes), and the packaging station may search, based on the processor identifier set, for a processor identifier corresponding to the identifier in the processor identifier set after scanning the identifier of the terminal that has been assembled. And sending a software version lookup request to a server based on the processor identification. Wherein the push cycle may be determined based on the production packaging requirements of the actual terminal.

Step 203: and receiving an authentication request of the brushing station, and authenticating the brushing station in response to the authentication request.

The authentication request is used for requesting a server to verify whether the brushing machine work has the right to the terminal brushing machine.

Specifically, in the production and assembly process of the terminal, when the brushing machine work needs to brush the assembled terminal, a server is generally required to perform brushing authorization on the brushing task of the brushing station on the terminal. At this time, the brushing machine work station can send an authentication request through a communication network between the brushing machine work station and the server, the server responds to the authentication request after receiving the authentication request sent by the brushing machine work station, an authentication process for authenticating the brushing machine work station is created, resources of a server resource pool are allocated for authentication, and the brushing machine work station is authenticated.

The authentication request sent by the brushing station to the server may be sent when the terminal is about to brush the terminal which is assembled, or may be sent before the terminal which is assembled is brushed, or may be sent to the server at the timing of the brushing machine (for example, every 15 minutes), etc. Here, no specific limitation is imposed.

Step 204: and determining that the authentication of the brushing station passes, and performing brushing authorization on the brushing station.

In a specific implementation scenario, the authentication mode may be verification by a key, that is, when the server sends an authentication request to the server, the server receives the authentication request of the server and performs verification based on the key carried by the authentication request. And when the key is matched with a preset key, the server determines that the authentication of the brushing station passes.

In a specific implementation scenario, the authentication mode may be verified through a station identifier of the brushing station, where the station identifier may uniquely represent indication information of the brushing station identity, and typically, the station identifier may be an id representing the brushing station, for example, 1, 2, 3, etc. represent numbers of ids; may be key characters representing the brushing station, such as a, b, c, etc.; may be a key string representing a brusher station, such as pth_a, pth_b, pth_c; and so on, the station identifier may also be information such as a MAC address, an IP address, a digital certificate, an ID, and the like of the brushing machine. The station for brushing machine can carry the station identification when sending the authentication request to the server, the server verifies based on the station identification carried by the authentication request after receiving the authentication request of the station for brushing machine, generally, the server can store a legal station identification library, the server can search whether the station identification is contained in the station identification library, and when the station identification exists, the server determines that the authentication of the station for brushing machine passes.

Optionally, when the machine refreshing station sends the authentication request to the server, a preset public key may be used to encrypt and transmit the authentication request, generally, the preset public key corresponds to a preset private key, a manner of encrypting and decrypting the transmission information by using the public key and the private key is generally referred to as an asymmetric encryption manner, in the asymmetric encryption manner, as shown in fig. 3, fig. 3 is a scene diagram of an asymmetric encryption manner, the encryption party-machine refreshing station encrypts the authentication request of the encrypted transmission by using the public key, and sends the encrypted information-authentication request to the decryption party-server through a communication network between the encryption party-machine refreshing station and the server, the decryption party-server decrypts the encrypted information-authentication request by using the preset private key, so as to obtain the authentication request, and in the whole information transmission process, the private key is invisible to the electronic device except the server, and the encrypted information of the public key can only be decrypted by using the private key.

Wherein the preset public key and the preset private key may be assigned based on an asymmetric encryption algorithm including, but not limited to, RSA encryption algorithm, elgamal encryption algorithm, knapsack algorithm, rabin encryption algorithm, ECC (elliptic curve encryption algorithm), and the like.

Specifically, the server determines that the authentication of the brushing station passes, that is, the brushing station is authorized to brush, and the brushing authorization can send a brushing verification certificate to the brushing station, can send a brushing code to the brushing station, can start the brushing authority of the brushing station in the background of the server, and the like.

Step 205: and receiving the target software version and the processor identifier, which are sent by the brushing machine work and are used for brushing the terminal of the final assembly, and storing the processor identifier and the target software version into the software version set correspondingly.

Specifically, when the brushing machine work needs to brush the assembled terminal, the assembled terminal is fixed on a downloading jig of the product production line, and the brushing machine work can download and install the software to be installed on the assembled terminal in a wired connection mode with the assembled terminal. The wired connection mode may be a mode of using a universal serial bus to perform wired connection with a data interface on the assembled terminal, where the data interface includes, but is not limited to, a 3.5mm earphone socket, a USB interface, a Type-C interface, a lighting interface, and the like.

Specifically, when the brushing machine is performed on the assembled terminal, the assembled terminal is in a shutdown state, and the processor identification of the terminal can be obtained through wired connection in the brushing machine working process. In this embodiment of the present application, in the process of installing and debugging the terminal execution software (including system software, application software, and intermediary software interposed between the two) by the flashing station, the flashing station executing the terminal flashing task will upload the flashing related information of the current flashing task to the server, where the flashing related information includes, but is not limited to, the processor identifier of the terminal, the target software version, the flashing time, the flashing information of the flashing machine, and the like. And the server acquires the processor identifier and the target software version in the brushmachine information. The server can establish a corresponding relation between the processor identifier and the software version in the terminal flashing process, and correspondingly store the processor identifier and the target software version into the software version set; or the brushing machine working machine directly sends the target software version and the processor identifier to the server after the terminal of the final assembly is subjected to brushing, and the server can establish the corresponding relation between the processor identifier and the software version in the brushing process of the terminal and store the processor identifier and the target software version in the software version set.

Step 206: and receiving a software version searching request which is sent by the packaging station and is aimed at the terminal which is assembled, wherein the software version searching request carries the processor identifier.

See step 101, which is not described here.

Step 207: and receiving a software version searching request which is sent by a packaging station and aims at the terminal of the assembly, wherein the software version searching request carries the identification code of the terminal, and searching the processor identification corresponding to the identification code in the processor identification set.

Specifically, after the packaging station obtains the identity code of the terminal which is assembled, the packaging station can generate a software version searching request containing the identity code, and then can send the software version searching request for searching the target version information of the terminal which is assembled to the server through a communication network between the packaging station and the server. After receiving the software version searching request, the server responds to the software version searching request to acquire an identification code carried by the software version searching request, searches a stored processor identification set for the processor identification corresponding to the identification code, and then executes the step of searching the software version set for a target software version corresponding to the processor identification.

Optionally, the information interaction between the packaging station and the server through the communication network may be encryption by using a symmetric encryption algorithm, where the symmetric encryption mode refers to that the encryption information sender and the receiver use the same key to encrypt/decrypt. The algorithm based on the symmetrical encryption mode can be a DES encryption algorithm, a triple DES encryption algorithm, an RC2/RC4/RC5 encryption algorithm, a Blowfish encryption algorithm and the like.

Step 208: and searching the corresponding target software version of the processor identifier in the software version set.

See step 102, which is not described in detail herein.

Step 209: and feeding the target software version back to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

See step 103, which is not described here.

In this embodiment of the present application, a server receives a software version search request sent by a wrapping station for a terminal that has been assembled, where the software version search request carries a processor identifier of the terminal, searches a software version set for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection. Meanwhile, the server can prestore a processor identifier set containing the identity identifier and the processor identifier of the terminal, searches the corresponding processor identifier based on the identity identifier by receiving a software version searching request containing the identity identifier by the packaging station, and then determines the target software version of the terminal according to the processor identifier without searching the corresponding processor identifier by the packaging station according to the acquired identity identifier, so that the time for detecting the software refreshing machine can be saved, the process of detecting the software refreshing machine is simplified, and the packaging efficiency of the terminal is improved.

Referring to fig. 4, fig. 4 is a flowchart illustrating another embodiment of a software flashing detection method according to the present application. Specific:

step 301: and scanning the identity label on the terminal of the final assembly, and reading the identity identification code corresponding to the identity label.

The identity tag can be an electronic tag, a paper tag, a plastic tag and the like, and the identity tag can be in the form of a two-dimensional code, a bar code, a small program code and the like. In this embodiment of the present application, after the terminal is swiped with the identification code during the production and assembly process, an identification tag for characterizing the terminal is typically attached to the terminal. Typically, the location of the application of the identification tag can be scanned and effectively identified by the packaging station at the corresponding production link of the packaging station.

The packaging station can be integrated with a label scanner for scanning the identity label, wherein the label scanner is used for identifying and reading the information content of the identity label by utilizing an optical principle, and then transmitting the decoded information to a computer or other identification platform of the packaging station. In this embodiment of the present application, the packaging station may automatically scan the identity tag on the assembled terminal by using the tag scanner, then identify and read the information content of the identity tag, and decode the information content, so as to read the identity identification code corresponding to the identity tag.

In a specific implementation scenario, taking the identification tag as an example of a bar code, the bar code is a pattern of alternating black and white stripes, where the black portion is referred to as "bar" white and is referred to as "null". Bars and spaces are used to represent 0 or 1, respectively, so that the combination of different thickness stripes with each other represents different encoded information. A label scanner-bar code scanner for scanning identity labels may be integrated in the packaging station, as shown in fig. 5. Fig. 5 is a schematic view of a scene of scanning identity labels, where light from a light source in the bar code scanner comprised in the packaging station is reflected after passing through the lens 1 to the bar code on the assembled terminal. The reflected light is converged on the optical sensor of the bar code scanner through the lens 2, so that the emitted light with different intensities is converted into electric signals, and the duration of the different electric signals represents the width of the bar and the space. Then, the electric signal is subjected to steps such as signal amplification, signal processing and the like, and is sent to a decoding circuit to be 'translated' into original coding information. Finally, the information about the bar code, namely the identity code corresponding to the identity tag, is read by comparison with the coded information in the computer system of the packaging station.

Step 302: and sending a set acquisition request for the terminal of the assembled terminal to the server, and receiving a processor identification set sent by the server based on the set acquisition request.

The processor identification set comprises processor identifications corresponding to the identity identification codes of at least one terminal.

In a specific implementation scenario, after the assembly is performed on the terminal, the assembly station completes the production test procedures such as the surface mounting procedure, the single board test, the complete machine test, the writing of the terminal identification code (such as the IMEI code) and the like, and the assembly station sends the assembly related information of the assembly task to the MES system of the server for storage, wherein the assembly related information includes, but is not limited to, the processor identification of the terminal, the identification code of the terminal, the assembly time, the assembly station number and the like. After receiving the assembly related information sent by the assembly station, the MES system of the server can extract the identity code and the processor identifier of the terminal in the assembly related information, then establishes the corresponding relation between the processor identifier and the identity code, and stores the corresponding relation in the form of the processor identifier set.

When the packaging station needs to execute the software flashing detection method of the embodiment of the application on the terminal which is assembled currently, after the identity of the terminal is acquired, a set acquisition request for the terminal which is assembled currently can be sent to the server through a communication network between the packaging station and the server, wherein the set acquisition request is used for acquiring a processor identification set on the server. The server, upon receiving the set acquisition request, responds to the set acquisition request and then sends the set of processor identifications to the packaging station.

In one possible implementation, the wrapping station may receive the set of processor identifications pushed by the server at a timing such that there is no need to send a set acquisition request to the server. Specifically, the server may actively push the processor identifier set to the packaging station, for example, push the processor identifier set to the packaging station at regular intervals (e.g., 5 minutes) of a specific push period. Wherein the push cycle may be determined based on the production packaging requirements of the actual terminal.

Step 303: and searching the processor identifier corresponding to the identification code in the processor identifier set.

Specifically, after receiving the processor identifier set sent by the server, the packaging station searches the processor identifier corresponding to the identification code in the processor identifier set, and then executes the step of searching the target software version corresponding to the processor identifier in the software version set.

Optionally, when the processor identifier corresponding to the identification code is not found in the processor identifier set, the packaging station may feed back the search failure information of the identifier to the server. And after receiving the searching failure information, the server reconfirm the processor identification set to be sent and sends the processor identification set to a packaging station. Or the server sends a processor identifier synchronization instruction to the work brushing machine so that the work brushing machine can upload the processor identifier and the corresponding identity code of at least one terminal again, the server stores the processor identifier and the corresponding identity code of the at least one terminal into a processor identifier set, the processor identifier set is resent to a packaging station, and the packaging station searches the processor identifier corresponding to the identity code in the processor identifier set after receiving the resent processor identifier set of the server.

Step 304: and sending a software version searching request aiming at the terminal to a server, wherein the software version searching request carries the processor identifier.

Specifically, after the processor identifier of the assembled terminal is obtained, the packaging station may send a software version searching request for searching the target version information of the assembled terminal to the server through a communication network between the packaging station and the server. After receiving the software version searching request, the server responds to the software version searching request, performs the step of searching the target software version corresponding to the processor identifier in the software version set, and when the target software version corresponding to the processor identifier is found, can send the target software version to the packaging station through a communication network between the server and the packaging station.

Step 305: and sending a software version searching request for the terminal which is assembled to a server, wherein the software version searching request carries the identity identification code of the terminal.

Specifically, the packaging station scans an identity tag on a terminal which is assembled, reads an identity code corresponding to the identity tag, so that after the identity code of the terminal which is assembled is obtained, a software version searching request containing the identity code can be generated, then a software version searching request for searching target version information of the terminal which is assembled can be sent to a server through a communication network between the server and the server, after the server receives the software version searching request, the server responds to the software version searching request, the identity code carried by the software version searching request is obtained, then a processor identifier corresponding to the identity code is searched in a stored processor identifier set, then the server searches a target software version corresponding to the processor identifier in the software version set, and when the target software version corresponding to the processor identifier is searched, the target software version can be sent to the packaging station through the communication network between the server and the packaging station.

Step 306: and receiving the target software version fed back by the server.

Specifically, the packaging station sends a software version searching request for the assembled terminal to the server, and when the server receives the software version searching request of the packaging station and responds to the software version searching request to find the target software version of the assembled terminal, the target software version is sent to the packaging station through a communication network between the packaging station and the server. At this time, the packaging station can receive the target software version fed back by the server.

In the embodiment of the application, when the packaging station and the server exchange data via a communication network (for example, the packaging station sends a software version searching request to the server, and the server feeds back a target software version to the packaging station), technologies and/or formats including hypertext markup language (HTML) and extensible markup language (ExtensibleMarkupLanguage, XML) may be used to represent data exchanged via the network. All or some of the communication network links may also be encrypted using conventional encryption techniques such as secure socket layer (SecureSocketLayer, SSL), transport layer security (TransportLayerSecurity, TLS), virtual private network (VirtualPrivateNetwork, VPN), internet protocol security (InternetProtocolSecurity, IPsec), and the like. Custom and/or dedicated data communication techniques may also be used in place of or in addition to the data communication techniques described above.

Step 307: and packaging the terminal when the target software version is matched with the allowed software version.

Specifically, the release-allowed software version may be understood as a software version installed on a terminal that allows delivery, and in this embodiment of the present application, the packaging station determines whether the software of the terminal meets the delivery standard by detecting whether the software version of the assembled terminal is consistent with the release-allowed version, that is, detecting whether the software version (such as a software version number) of each software of the terminal is consistent with the release-allowed software version, and when the assembled terminal meets the delivery standard, the packaging station packages the assembled terminal.

Specifically, the packaging station detects whether the target software version is consistent with the let-out software version or not, and can be detected by detecting a software version number, specifically, whether the software version number corresponding to the target software version is consistent with the software version number of the let-out software version or not, when the software version number corresponding to the target software version is consistent with the software version number of the let-out software version, the packaging station determines that the assembled terminal meets the factory standard, and the packaging station packages the assembled terminal, such as assembling accessories of the terminal, packaging the terminal into a packaging box, and finally warehousing and shipment.

Step 308: and when the target software version is not matched with the allowed software version, terminating packaging for the terminal.

Specifically, in the process of detecting the matching between the target software version and the allowed software version, when the software version number corresponding to the target software version is consistent with the software version number of the allowed software version, the packaging station determines that the target software version is not matched with the allowed software version, and at the moment, the packaging station terminates packaging the assembled terminal, namely, does not assemble accessories of the terminal and packages the terminal into a packaging box.

Optionally, after the packaging station terminates packaging the terminal, the packaging station may perform rollback processing on the current terminal, where the rollback processing may be understood that the packaging station controls the terminal to rollback to a brushing station for brushing, specifically may be configured to rollback to the brushing station for brushing through a bearing fixture on a terminal production line for fixing the terminal, and may send information that the software version is not matched to the server.

In the embodiment of the application, a packaging station scans an identity tag on a terminal which is assembled, reads an identity identification code corresponding to the identity tag, acquires a processor identifier of the terminal which is assembled, sends a software version searching request for the terminal to a server, the software version searching request carries the processor identifier, receives a target software version fed back by the server, and packages the terminal when the target software version is matched with an allowed software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and then the receiving server searches the target software version corresponding to the processor identifier in the software version set, so that the accurate software version can be acquired, and the error rate of software version detection is reduced. Meanwhile, the packaging station can send a software version searching request carrying the identity code to the server, so that the server searches the corresponding processor identifier based on the identity code, then determines the target software version of the terminal according to the processor identifier, and does not need to search the corresponding processor identifier according to the acquired identity code, thereby saving the time of software machine refreshing detection, simplifying the process of software machine refreshing detection and improving the efficiency of terminal packaging.

Fig. 6 is a schematic view of a software flashing detection system according to an embodiment of the present application. As shown in fig. 6, the software brusher detection system may include a brusher station 100, a final assembly station 110, a packaging station 120, and a server 130.

The server 130 may be a separate server device, such as: the rack-mounted, blade, tower-type or cabinet-type server equipment can also adopt a workstation, a mainframe computer, or other hardware equipment with relatively strong computing capacity, or can also adopt a server cluster formed by a plurality of servers, wherein each server in the server cluster can be formed in a symmetrical mode, each server is equivalent in function and equivalent in position in a service link, each server can independently provide services to the outside, and the independent provision of services can be understood as not needing the assistance of other servers.

The station is the most basic production unit in the terminal production process, and personnel, equipment and raw material tools are arranged on the station for production assembly. And arranging working members and people according to the site of the assembly project. The station site can integrate electronic equipment (such as a computer, an intelligent mechanical arm, an intelligent camera and the like), production tools, tool material racks, parts, part material racks, power sockets and the like for terminal production. In actual terminal production, according to task types distributed in terminal production, stations can be divided into a brushing station, a final assembly station, a packaging station and the like.

The brushing station 100 is used for installing and debugging terminal execution software (including system software, application software, intermediary software between the system software and the application software) on a terminal production line, which is also called a terminal brushing process.

The assembly station 110 is used for performing assembly test, such as appearance and complete machine function test, on the terminals on the terminal production line, and after the assembly test link, the terminals usually complete the production test procedures, such as surface mounting procedure, single board test, complete machine test, and writing of terminal identification code (such as IMEI code). After the final assembly station completes the final assembly test (such as appearance and complete machine function test) of the terminal, the terminal is usually in a shutdown state.

The packaging station 120 is used for packaging the assembled terminals, such as assembling the accessories of the terminals and packaging the terminals into a packaging box, and finally warehousing and delivering. In this embodiment of the present application, the packaging station 120 is configured to detect whether the installed software of the terminal before the assembled terminal leaves the factory for packaging meets the factory standard, that is, whether the version information of each software is consistent with the version information of the allowed software, and when the assembled terminal meets the factory standard, the packaging station packages the assembled terminal.

It should be noted that, in the actual terminal production process of the brushing station 100, the assembly station 110, and the packaging station 120, the number of each station is determined based on the requirement of the terminal production, and for ease of understanding, the brushing station 100, the assembly station 110, and the packaging station 120 in fig. 6 are described as examples.

Terminals for production assembly on the production line include, but are not limited to: wearable devices, handheld devices, personal computers, tablet computers, vehicle-mounted devices, smart phones, computing devices, or other processing devices connected to a wireless modem, etc. Terminal devices in different networks may be called different names, for example: a user equipment, an access terminal, a subscriber unit, a subscriber station, a mobile station, a remote terminal, a mobile device, a user terminal, a wireless communication device, a user agent or user equipment, a cellular telephone, a cordless telephone, a Personal Digital Assistant (PDA), a terminal device in a 5G network or a future evolution network, and the like.

The information interaction between the brushing station 100, the assembly station 110, the packaging station 120 and the server may be based on a communication network, which may be the internet, but may be any other network, including but not limited to any combination of a local area network (LocalAreaNetwork, LAN), a metropolitan area network (MetropolitanAreaNetwork, MAN), a wide area network (WideAreaNetwork, WAN), a mobile, wired or wireless network, a private network, or a virtual private network.

The terminal is transmitted to the assembly station 110 through the production line, the assembly station 110 performs assembly and corresponding test on the current terminal, and after the assembly station 110 completes assembly on the terminal on the production line, the identity identification code and the processor identification of the terminal are uploaded to the server 130 through a communication network with the server 130.

The server 130 receives the identification code of the terminal and the processor identifier uploaded after the terminal is assembled by the assembly station 110.

The server 130 stores the processor identifier and the identification code in the processor identifier set.

In a specific implementation scenario, the server 130 may generally be equipped with an MES system, and in the whole production and assembly process, due to production and test requirements, the assembly station 110 completes a production test procedure such as a surface mounting procedure, a board test, a complete machine test, and writing of a terminal identity identifier (such as an IMEI code) on the terminal after executing the assembly task on the terminal, where the assembly station sends assembly related information of the current assembly task to the MES system of the server for storage, where the assembly related information includes, but is not limited to, processor identifier of the terminal, identity identifier of the terminal, assembly time, assembly station number, and other assembly information. After receiving the assembly related information sent by the assembly station, the MES system of the server 130 extracts the identity code and the processor identifier of the terminal in the assembly related information, establishes a corresponding relationship between the processor identifier and the identity code, and stores the corresponding relationship in the form of the processor identifier set.

In the actual terminal production process, the terminal installation station 100 needs to install the terminal in the final assembly due to the terminal production requirement, such as updating the important software version before the terminal is marketed. Before the terminal of the assembly is refreshed, the refresh station 100 may send an authentication request to the server 130, the server 130 receives the authentication request of the refresh station 100, and the refresh station 100 is authenticated in response to the authentication request. When it is determined that the authentication of the brusher station 100 passes, the server 130 performs brusher authorization on the brusher station 100. After the terminal is subjected to the flashing authorization of the server 130, the flashing station 100 performs flashing on the terminal which is currently assembled, specifically, the steps of installing and debugging the terminal execution software (including system software, application software, intermediary software between the system software and the application software, and the like), and after the flashing station 100 finishes flashing on the terminal which is assembled, the flashing station 100 can upload flashing related information of the current flashing task, namely a target software version and the processor identifier, to the server 130.

The server 130 receives the target software version after the terminal is booted and the processor identifier, which are sent by the host computer 100, and stores the processor identifier and the target software version in the software version set.

The terminal is transmitted to the packaging station 120 through a production line, and the packaging station 120 scans the identity label on the assembled terminal and reads the identity identification code corresponding to the identity label. And searching the processor identifier corresponding to the identification code in the processor identifier set.

The packaging station 120, upon acquiring the processor identification of the assembled terminal, may send a software version search request to the server 130 for searching for the target version information of the assembled terminal through a communication network with the server. After receiving the software version search request, the server 130 responds to the software version search request, and performs a step of searching for a target software version corresponding to the processor identifier in the software version set, and when the target software version corresponding to the processor identifier is found, the target software version can be sent to the packaging station 1200 through a communication network with the packaging station 120.

The wrapping station 120 receives the target software version fed back by the server 130, and the wrapping station detects whether the target software version is consistent with the allowed software version. The method specifically comprises the steps of detecting a software version number, specifically detecting whether the software version number corresponding to the target software version is consistent with the software version number of the allowed software version, when the software version number corresponding to the target software version is consistent with the software version number of the allowed software version, the packaging station determining that the assembled terminal meets the factory standard, packaging the assembled terminal, for example, assembling accessories of the terminal, packaging the terminal into a packaging box, and finally warehousing and delivering. When the target software version does not match the let-off software version, the wrapping station 120 terminates wrapping the terminal.

In this embodiment of the present application, a server receives a software version search request sent by a wrapping station for a terminal that has been assembled, where the software version search request carries a processor identifier of the terminal, searches a software version set for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection. Meanwhile, the server can prestore a processor identifier set containing the identity identifier and the processor identifier of the terminal, searches the corresponding processor identifier based on the identity identifier by receiving a software version searching request containing the identity identifier by the packaging station, and then determines the target software version of the terminal according to the processor identifier without searching the corresponding processor identifier by the packaging station according to the acquired identity identifier, so that the time for detecting the software refreshing machine can be saved, the process of detecting the software refreshing machine is simplified, and the packaging efficiency of the terminal is improved.

The following are device embodiments of the present application, which may be used to perform method embodiments of the present application. For details not disclosed in the device embodiments of the present application, please refer to the method embodiments of the present application.

Referring to fig. 7, a schematic structural diagram of a software brushing detecting device according to an exemplary embodiment of the present application is shown. The software flashing detection device may be implemented as all or part of the device by software, hardware or a combination of both. The apparatus 1 comprises a search request receiving module 11, a target version search module 12 and a target version feedback module 13.

A search request receiving module 11, configured to receive a software version search request for a terminal that has been assembled and sent by a packaging station, where the software version search request carries a processor identifier of the terminal;

a target version searching module 12, configured to search the set of software versions for a target software version corresponding to the processor identifier;

and the target version feedback module 13 is configured to feed back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches the allowed software version.

Alternatively, as shown in fig. 9, the apparatus 1 includes:

and the software version saving module 14 is used for receiving the target software version after the terminal is refreshed on the assembly, which is sent by the brush machine work, and the processor identifier, and saving the processor identifier and the target software version into the software version set correspondingly.

Alternatively, as shown in fig. 9, the apparatus 1 includes:

the processor identifier storage module 15 is configured to receive an identity identifier of the terminal and a processor identifier of the terminal uploaded after the final assembly is performed by the final assembly station, and store the processor identifier and the identity identifier in a processor identifier set.

Alternatively, as shown in fig. 9, the apparatus 1 includes:

the identifier set sending module 16 is configured to receive a set acquisition request sent by a packaging station for a terminal that has been assembled, and send the processor identifier set to the packaging station based on the set acquisition request, where the processor identifier set is used by the packaging station to acquire a processor identifier corresponding to an identity identifier of the terminal.

Optionally, as shown in fig. 8, the search request receiving module 11 includes:

a search request receiving unit 111, configured to receive a software version search request for a terminal that has been assembled and sent by a packaging station, where the software version search request carries an identification code of the terminal;

The processor identifier searching unit 112 is configured to search the processor identifier corresponding to the identity code in the processor identifier set.

Alternatively, as shown in fig. 9, the apparatus 1 includes:

an authentication request receiving module 17, configured to receive an authentication request of the brushing station, and authenticate the brushing station in response to the authentication request;

and the brushing authorization module 18 is used for determining that the brushing station authentication passes and performing brushing authorization on the brushing machine.

It should be noted that, when the software flashing detection device provided in the above embodiment executes the software flashing detection method, only the division of the above functional modules is used for illustration, in practical application, the above functional allocation may be completed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to complete all or part of the functions described above. In addition, the software flashing detection device and the software flashing detection method provided in the above embodiments belong to the same concept, which embody the detailed implementation process and are not described herein.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments.

In this embodiment of the present application, a server receives a software version search request sent by a wrapping station for a terminal that has been assembled, where the software version search request carries a processor identifier of the terminal, searches a software version set for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection. Meanwhile, the server can prestore a processor identifier set containing the identity identifier and the processor identifier of the terminal, searches the corresponding processor identifier based on the identity identifier by receiving a software version searching request containing the identity identifier by the packaging station, and then determines the target software version of the terminal according to the processor identifier without searching the corresponding processor identifier by the packaging station according to the acquired identity identifier, so that the time for detecting the software refreshing machine can be saved, the process of detecting the software refreshing machine is simplified, and the packaging efficiency of the terminal is improved.

Referring to fig. 10, a schematic structural diagram of a software brushing detecting device according to an exemplary embodiment of the present application is shown. The software flashing detection device may be implemented as all or part of the device by software, hardware or a combination of both. The apparatus 2 comprises a processor identification transmitting module 21, a target version receiving module 22 and a software version matching module 23.

The processor identifier sending module 21 is configured to obtain a processor identifier of a terminal that has been assembled, and send a software version search request for the terminal to a server, where the software version search request carries the processor identifier of the terminal;

a target version receiving module 22, configured to receive a target software version fed back by the server;

and the software version matching module 23 is used for packaging the terminal when the target software version is matched with the allowed software version.

Optionally, as shown in fig. 11, the processor identifier sending module 21 includes:

the identity tag scanning unit 211 is configured to scan an identity tag on a terminal that has been assembled, and read an identity identification code corresponding to the identity tag;

the processor identifier searching unit 212 is configured to search the processor identifier corresponding to the identity code in the processor identifier set.

Alternatively, as shown in fig. 12, the apparatus 2 includes:

and the acquisition request sending module 24 is used for sending a set acquisition request for the terminal which is assembled to the server, and receiving the processor identification set sent by the server based on the set acquisition request.

Optionally, as shown in fig. 11, the processor identifier sending module 21 includes:

the identity tag scanning unit 211 is further configured to scan an identity tag on a terminal that has been assembled, and read an identity identification code corresponding to the identity tag;

a search request sending unit 213, configured to send a software version search request for a terminal that has been assembled to a server, where the software version search request carries an identity code of the terminal.

Optionally, the apparatus 2 includes:

the software version matching module 23 is further configured to terminate the wrapper for the terminal when the target software version does not match the allowed software version.

It should be noted that, when the software flashing detection device provided in the above embodiment executes the software flashing detection method, only the division of the above functional modules is used for illustration, in practical application, the above functional allocation may be completed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to complete all or part of the functions described above. In addition, the software flashing detection device and the software flashing detection method provided in the above embodiments belong to the same concept, which embody the detailed implementation process and are not described herein.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments.

In this embodiment, the packaging station scans an identity tag on a terminal that has been assembled, reads an identity identifier corresponding to the identity tag, obtains a processor identifier of the terminal that has been assembled, and sends a software version search request for the terminal to a server, where the software version search request carries the processor identifier, receives a target software version fed back by the server, and packages the terminal when the target software version matches with an allowed software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and then the receiving server searches the target software version corresponding to the processor identifier in the software version set, so that the accurate software version can be acquired, and the error rate of software version detection is reduced. Meanwhile, the packaging station can send a software version searching request carrying the identity code to the server, so that the server searches the corresponding processor identifier based on the identity code, then determines the target software version of the terminal according to the processor identifier, and does not need to search the corresponding processor identifier according to the acquired identity code, thereby saving the time of software machine refreshing detection, simplifying the process of software machine refreshing detection and improving the efficiency of terminal packaging.

The embodiment of the present application further provides a computer storage medium, where the computer storage medium may store a plurality of instructions, where the instructions are adapted to be loaded by a processor and executed by the processor, where the specific execution process may refer to the specific description of the embodiment shown in fig. 1 to 6, and details are not repeated herein.

The application further provides a computer program product, where at least one instruction is stored, where the at least one instruction is loaded by the processor and executed by the processor, where the specific execution process may refer to the specific description of the embodiment shown in fig. 1 to 6, and details are not repeated herein.

Referring to fig. 13, a schematic structural diagram of an electronic device is provided in an embodiment of the present application. As shown in fig. 13, the electronic device 1000 may include: at least one processor 1001, at least one network interface 1004, a user interface 1003, a memory 1005, at least one communication bus 1002.

Wherein the communication bus 1002 is used to enable connected communication between these components.

The user interface 1003 may include a Display screen (Display) and a Camera (Camera), and the optional user interface 1003 may further include a standard wired interface and a wireless interface.

The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), among others.

Wherein the processor 1001 may include one or more processing cores. The processor 1001 connects various parts within the entire server 1000 using various interfaces and lines, and performs various functions of the server 1000 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 1005, and calling data stored in the memory 1005. Alternatively, the processor 1001 may be implemented in at least one hardware form of digital signal processing (DigitalSignalProcessing, DSP), field programmable gate array (Field-ProgrammableGateArray, FPGA), programmable logic array (ProgrammableLogicArray, PLA). The processor 1001 may integrate one or a combination of several of a central processing unit (CentralProcessingUnit, CPU), an image processing unit (GraphicsProcessingUnit, GPU), a modem, and the like. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 1001 and may be implemented by a single chip.

The memory 1005 may include a random access memory (RandomAccessMemory, RAM) or a Read-only memory (Read-only memory). Optionally, the memory 1005 includes a non-transitory computer readable medium (non-transitoroompter-readabblestonemachineum). The memory 1005 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 1005 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the above-described respective method embodiments, etc.; the storage data area may store data or the like referred to in the above respective method embodiments. The memory 1005 may also optionally be at least one storage device located remotely from the processor 1001. As shown in fig. 13, an operating system, a network communication module, a user interface module, and a software brush detection application may be included in the memory 1005, which is one type of computer storage medium.

In the electronic device 1000 shown in fig. 13, the user interface 1003 is mainly used for providing an input interface for a user, and acquiring data input by the user; and the processor 1001 may be configured to invoke the software brush detection application stored in the memory 1005 and specifically perform the following operations:

Receiving a software version searching request which is sent by a packaging station and aims at a terminal which is assembled, wherein the software version searching request carries a processor identifier of the terminal;

searching a target software version corresponding to the processor identifier in the software version set;

and feeding the target software version back to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

In one embodiment, before executing the software version search request for the assembled terminal sent by the receiving packaging station, the processor 1001 further performs the following operations:

receiving a target software version sent by a brushing machine working machine after the terminal is subjected to brushing on the final assembly and the processor identification;

and storing the processor identifier and the target software version into the software version set correspondingly.

In one embodiment, before executing the software version search request for the assembled terminal sent by the receiving packaging station, the processor 1001 further performs the following operations:

receiving an identification code of the terminal uploaded after the terminal is assembled by the assembly station and a processor identifier;

And correspondingly storing the processor identifier and the identification code into a processor identifier set.

In one embodiment, the processor 1001, when executing the software brush detection method, further performs the following operations:

receiving a set acquisition request which is sent by a packaging station and aims at a terminal of the assembled terminal, and sending the processor identification set to the packaging station based on the set acquisition request, wherein the processor identification set is used for the packaging station to acquire a processor identification corresponding to an identity identification code of the terminal.

In one embodiment, when executing the software version search request for the assembled terminal sent by the receiving packaging station, the processor 1001 specifically executes the following operations when the software version search request carries the processor identifier:

receiving a software version searching request which is sent by a packaging station and aims at a terminal which is assembled, wherein the software version searching request carries an identification code of the terminal;

and searching the processor identifier corresponding to the identification code in the processor identifier set.

In one embodiment, the processor 1001, when executing the software brush detection method, further performs the following operations:

Receiving an authentication request of the brushing station, and authenticating the brushing station in response to the authentication request;

and determining that the authentication of the brushing station passes, and performing brushing authorization on the brushing station.

In this embodiment of the present application, a server receives a software version search request sent by a wrapping station for a terminal that has been assembled, where the software version search request carries a processor identifier of the terminal, searches a software version set for a target software version corresponding to the processor identifier, and feeds back the target software version to the wrapping station, where the target software version is used by the wrapping station to wrap the terminal when the target software version matches an allowable software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and after receiving the software version searching request, the server can search the target software version corresponding to the processor identifier in the software version set, thereby enabling the packaging station to acquire an accurate software version and reducing the error rate of software version detection. Meanwhile, the server can prestore a processor identifier set containing the identity identifier and the processor identifier of the terminal, searches the corresponding processor identifier based on the identity identifier by receiving a software version searching request containing the identity identifier by the packaging station, and then determines the target software version of the terminal according to the processor identifier without searching the corresponding processor identifier by the packaging station according to the acquired identity identifier, so that the time for detecting the software refreshing machine can be saved, the process of detecting the software refreshing machine is simplified, and the packaging efficiency of the terminal is improved.

Referring to fig. 14, a schematic structural diagram of another electronic device is provided in an embodiment of the present application. As shown in fig. 14, the electronic device 2000 may include: at least one processor 2001, at least one network interface 2004, a user interface 2003, a memory 2005, at least one communication bus 2002.

Wherein a communication bus 2002 is used to enable connected communications between these components.

The user interface 2003 may include a Display screen (Display) and a Camera (Camera), and the optional user interface 2003 may further include a standard wired interface and a standard wireless interface.

The network interface 2004 may optionally include standard wired interfaces, wireless interfaces (e.g., WI-FI interfaces), among others.

Wherein the processor 2001 may include one or more processing cores. The processor 2001 connects various portions of the overall server 2000 using various interfaces and lines, executing various functions of the server 2000 and processing data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 2005, and invoking data stored in the memory 2005. Alternatively, the processor 2001 may be implemented in at least one hardware form of digital signal processing (DigitalSignalProcessing, DSP), field programmable gate array (Field-ProgrammableGateArray, FPGA), programmable logic array (ProgrammableLogicArray, PLA). The processor 2001 may integrate one or a combination of several of a central processor (CentralProcessingUnit, CPU), an image processor (GraphicsProcessingUnit, GPU), a modem, and the like. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 2001 and may be implemented by a single chip.

The memory 2005 may include a random access memory (RandomAccessMemory, RAM) or a Read-only memory (rom). Optionally, the memory 2005 includes a non-transitory computer readable medium (non-transitoroompter-readabblestonemachineum). The memory 2005 may be used to store instructions, programs, code, sets of codes, or instruction sets. The memory 2005 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the above-described respective method embodiments, etc.; the storage data area may store data or the like referred to in the above respective method embodiments. The memory 2005 may also optionally be at least one storage device located remotely from the aforementioned processor 2001. As shown in fig. 14, an operating system, a network communication module, a user interface module, and a software brush detection application may be included in the memory 2005 as one type of computer storage medium.

In the electronic device 2000 shown in fig. 14, the user interface 2003 is mainly an interface for providing input to a user, and acquires data input by the user; and processor 2001 may be operative to invoke the software brush detection application stored in memory 2005 and to specifically perform the following operations:

Acquiring a processor identifier of a terminal which is assembled, and sending a software version searching request aiming at the terminal to a server, wherein the software version searching request carries the processor identifier of the terminal;

receiving a target software version fed back by the server;

and packaging the terminal when the target software version is matched with the allowed software version.

In one embodiment, the processor 2001, when executing the processor identification of the terminal for which the package has been obtained, specifically performs the following operations:

scanning an identity tag on a terminal which is assembled in a final way, and reading an identity identification code corresponding to the identity tag;

and searching the processor identifier corresponding to the identification code in the processor identifier set.

In one embodiment, before executing the searching for the processor identifier corresponding to the id in the processor identifier set, the processor 2001 further executes the following operations:

and sending a set acquisition request for the terminal of the assembled terminal to the server, and receiving a processor identification set sent by the server based on the set acquisition request.

In one embodiment, when executing the processor identifier of the terminal for which the processor 2001 has obtained the assembly, the processor 2001 sends a software version search request for the terminal to the server, where the software version search request carries the processor identifier, specifically performs the following operations:

Scanning an identity tag on a terminal which is assembled in a final way, and reading an identity identification code corresponding to the identity tag;

and sending a software version searching request for the terminal which is assembled to a server, wherein the software version searching request carries the identity identification code of the terminal.

In one embodiment, the processor 2001, after executing the target software version that receives the server feedback, further performs the following operations:

and when the target software version is not matched with the allowed software version, terminating packaging for the terminal.

In the embodiment of the application, a packaging station scans an identity tag on a terminal which is assembled, reads an identity identification code corresponding to the identity tag, acquires a processor identifier of the terminal which is assembled, sends a software version searching request for the terminal to a server, the software version searching request carries the processor identifier, receives a target software version fed back by the server, and packages the terminal when the target software version is matched with an allowed software version. The server establishes the corresponding relation between the processor identifier uploaded by the flashing station and the software version and stores the relation in the software version set, so that the processor identifier and the software version uploaded by the flashing station after flashing in the terminal shutdown state can be normally received, the problem of low accuracy of the software version of the terminal stored by the server due to the fact that the identity is not acquired is avoided, and then the receiving server searches the target software version corresponding to the processor identifier in the software version set, so that the accurate software version can be acquired, and the error rate of software version detection is reduced. Meanwhile, the packaging station can send a software version searching request carrying the identity code to the server, so that the server searches the corresponding processor identifier based on the identity code, then determines the target software version of the terminal according to the processor identifier, and does not need to search the corresponding processor identifier according to the acquired identity code, thereby saving the time of software machine refreshing detection, simplifying the process of software machine refreshing detection and improving the efficiency of terminal packaging.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored on a computer readable storage medium, which when executed may comprise the steps of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a read-only memory, a random access memory, or the like.

The foregoing disclosure is only illustrative of the preferred embodiments of the present application and is not intended to limit the scope of the claims herein, as the equivalent of the claims herein shall be construed to fall within the scope of the claims herein.

Claims (10)

1. A software flashing detection method applied to a server, the method comprising:

receiving a software version searching request which is sent by a packaging station and aims at a terminal which is assembled, wherein the software version searching request carries an identification code of the terminal;

searching a processor identifier corresponding to the identity code in a processor identifier set;

searching a target software version corresponding to the processor identifier in a software version set;

and feeding the target software version back to the packaging station, wherein the target software version is used for packaging the terminal when the target software version is matched with the allowed software version by the packaging station.

2. The method of claim 1, wherein prior to receiving the software version lookup request for the assembled terminal sent by the packaging station, further comprising:

receiving a target software version sent by a brushing machine working machine after the terminal is subjected to brushing on the final assembly and the processor identification;

and storing the processor identifier and the target software version into the software version set correspondingly.

3. The method of claim 1, wherein prior to receiving the software version lookup request for the assembled terminal sent by the packaging station, further comprising:

receiving an identification code of the terminal uploaded after the terminal is assembled by the assembly station and a processor identifier;

and correspondingly storing the processor identifier and the identification code into a processor identifier set.

4. A method according to claim 3, characterized in that the method further comprises:

and receiving a packaging station identification set, wherein the packaging station is used for acquiring an identification code pair of the terminal, transmitting a set acquisition request aiming at the assembled terminal, transmitting the processor identification set to the packaging station based on the set acquisition request, and the processor identification is marked by the processor.

5. The method according to claim 1, wherein the method further comprises:

receiving an authentication request of a brushing machine station, and authenticating the brushing machine station in response to the authentication request;

and determining that the authentication of the brushing station passes, and performing brushing authorization on the brushing station.

6. A method for detecting software after assembly, which is applied to a packaging station, and is characterized in that the method comprises the following steps:

scanning an identity tag on a terminal which is assembled in a final way, and reading an identity identification code corresponding to the identity tag;

sending a software version searching request aiming at a terminal which is assembled to a server, wherein the software version searching request carries an identity identification code of the terminal;

searching a processor identifier corresponding to the identity code in a processor identifier set;

receiving a target software version fed back by the server;

and packaging the terminal when the target software version is matched with the allowed software version.

7. The method of claim 6, wherein before searching the processor identifier corresponding to the identification code in the processor identifier set, further comprises:

and sending a set acquisition request for the terminal of the assembled terminal to the server, and receiving a processor identification set sent by the server based on the set acquisition request.

8. The method of claim 6, wherein after receiving the target software version of the server feedback, comprising:

and when the target software version is not matched with the allowed software version, terminating packaging for the terminal.

9. A computer storage medium storing a plurality of instructions adapted to be loaded by a processor and to perform the method steps of any one of claims 1 to 5 or 6 to 8.

10. An electronic device, comprising: a processor and a memory; wherein the memory stores a computer program adapted to be loaded by the processor and to perform the method steps of any of claims 1-5 or 6-8.

Images